Journal of Experimental Agriculture International

Carbon-based nanomaterials (CBNMs), including biochar, graphene oxide (GO), carbon nanotubes (CNTs), and fullerenes, have emerged as innovative tools for sustainable agriculture, particularly in soil amendment applications. Their unique properties, such as high surface area, chemical stability, porosity, and functionalization potential, allow for significant improvements in soil health, nutrient retention, and microbial activity. CBNMs enhance soil structure, water retention, and aeration, while also reducing the leaching of fertilizers and agrochemicals, thereby minimizing environmental contamination. biochar's role in carbon sequestration and the mitigation of greenhouse gas emissions positions it as a valuable tool for climate-smart agriculture. Recent research highlights CBNMs' ability to improve crop yields, nutrient use efficiency, and stress tolerance under conditions such as drought and salinity. Challenges remain regarding the scalability of their production, high costs, and potential toxicity to soil ecosystems and plants, as well as risks of nanoparticle leaching into water bodies. The long-term impacts of CBNMs on soil and the broader environment are still poorly understood, necessitating further investigation into their interactions with different soil types and ecosystems. Integration with emerging technologies, such as precision agriculture and Internet of Things (IoT)-based systems, presents opportunities to optimize their application and monitoring. Adopting CBNMs in regenerative agriculture practices could further enhance soil health and ecosystem resilience. Future directions should prioritize developing cost-effective and scalable synthesis methods, establishing regulatory frameworks for safe use, and promoting interdisciplinary collaborations to address knowledge gaps and public concerns. As the field advances, CBNMs have the potential to revolutionize agricultural practices, improving soil sustainability and productivity while mitigating environmental challenges, thereby contributing to global food security and climate resilience. This review underscores the promise of CBNMs in agriculture, while emphasizing the need for responsible innovation and rigorous research to ensure their sustainable implementation.